From 1G to 5G: Tracing the Unprecedented Evolution of Mobile Networks

The field of mobile technology is one which is constantly evolving. The 4G networks of today are upgraded to 5G, which makes them more efficient than ever before.

Each new generation of network enables more advanced devices and services. The technology of cell phones is evolving and older devices will be substituted.

1G

Mobile phone network’s first networks were established in the year the year 1980. From then on, every new technology of network has increased the capacity and quality. Each new technology generation has its own advantages and distinctive features.

1G was a first generation mobile phone network which utilized analog technology. The users were able to only make calls. Next-generation 2G networks introduced the use of digital voice and texts messages.

It was followed by 2.5G that included GPRS and EDGE technology. These lap mang cap quang viettel networks opened the way for data-driven mobile applications that had high speeds. There are some limitations on the speed of mobile network. These restrictions are usually imposed via data plan usage limits, hotspot caps or throttles for video.

2G

The 2G era brought wireless data transfer on the top of voice. This enabled SMS messages. Utilizing the same control that were used for speaking, data transfer enabled text or images to be transferred to mobile phones. This feature was so popular that it completely changed the way people communicated. Additionally, candy bar phones like Nokia 3210 sold over 160,000,000 units.

In the world 3G networks came out and introduced mobile internet. Users could browse the Internet or use basic applications. This also opened the door for advanced features such as HD Videoconferencing and Mobile TV.

The faster transfer of data allowed for sophisticated functions like HD Mobile TV and Video Conferencing. This technology also helped to pave the way for mobile IoT applications like NB-IoT and LTE-M.

3G

The growing use of smartphones made it clear that the 2G network was no longer sufficient to manage data traffic. It was necessary to develop new technologies to meet the growing demands of the customer arose.

GSM networks developed from analog technology to digital during the 90s. In the 90s, GSM networks were introduced as the first step toward 3G.

3G offered a significantly greater speed of data transmission than previous network. Also, it allowed access to internet via mobile devices. Companies could be connected when they were in motion.

The final phase of the 3G era is coming and many major carriers will shut down their legacy networks to make way for 4G LTE. The demise of 3G will affect technology, such as cell phones, GPS, home alarms. You can take today to prepare to switch over and keep your hardware.

4G

The evolution of the 4G network is set to revolutionize the world. The latest technology for mobile connectivity allows for speedier data transmission, greater connections density, and reduced latency.

As 3G networks have become too crowded and have suffered with slow speeds and a lack of speed, 4G is an advanced technology that can support high-end gaming apps, HD mobile television, videoconferencing and IP phones. It is accomplished through beamforming with analogues that are directional to boost Ricean factor, SNR and root mean squared delays.

The smartphone has been a major factor in the development of 4G. This device has helped to create 4G an enormous success. However, it is also expected to allow smarter innovations across various sectors. These innovations will help companies increase their productivity while also reducing costs. The improvements will enhance people’s lives across the globe.

5G

The advent of new and technological advancements will impact our lives in surprising ways. The 5G technology will handle massive data volumes with a extremely low latency. This implies that the buffering in streaming services and VR applications will be made obsolete.

The way 5G can achieve these speeds is using millimeter wave (mmWave) frequencies that are able to carry more information than other radio waves. This technology uses beamforming, which allows it to target devices with stronger signals and consumes less power.

As with other generations before, the mobile industry is also expected to continue evolving as new services are added and the speed of processing increases. But this time these changes could be more radical than ever previously.